Rovibronically Selected and Resolved Two-Color Laser Photoionization and Photoelectron Study of the Iron Carbide Cation

Abstract: By using a two-color laser excitation-photoionization scheme, we have obtained rovibronically selected and resolved state-to-state pulsed field ionization-photoelectron (PFI-PE) bands for FeC+(X2delta5/2; v+=0-2, J+), allowing unambiguous rotational assignments for the photoionization transitions. The finding of the J+ = 5/2 level as the lowest rotational state confirms that the ground FeC+ ion state is of 2delta5/2 symmetry. The observed changes in total angular momentum upon photoionization of FeC are |delta… Show more

“…This observed D 0 change reveals the highest occupied 1δ orbital is nonbonding in nature for the V-CH bond; but has anti-bonding or destabilizing character for the VC-H bond of VCH(X 3 By parking the IR ω 1 at the R-branch band head of the VCH*( + spectra (bottom spectra), which are shown as the orange, purple, brown, green, and red spectra, respectively. The simulation [12][13][14][15] assumes a Gaussian instrumental profile (FWHM = 1.3 cm −1 ) for the PFI-PE detection and takes into account the bandwidth of ω 1 , the Boltzmann populations of J -rotational levels based on an estimated rotational temperature of 35 K for the VCH molecular beam, and the overlaps of the rotational transitions with the excitation profile of the ω 1 output. The N + -dependence of the photoionization cross sections follows the patterns observed in the present and previous single J -selected PFI-PE measurements.…”

“…We have recently succeeded in performing high-resolution pulsed field ionizationphotoelectron (PFI-PE) 9, 10 studies for diatomic MX + (X = C, O, and N) species based on two-color visibleultraviolet (VIS-UV) excitation scheme, which has allowed fully rotationally selected and resolved spectroscopic measurement for MX + cations. [11][12][13][14][15][16] These studies have not only provided reliable rovibrational constants, but also accurate ionization energies (IEs) of MXs. To our knowledge, a fully rotationally resolved PFI-PE measurement for triatomic transition metal-containing cations has not been reported previously.…”

“…19 The experimental apparatus and procedures used are similar to those reported previously. [12][13][14][15] Cold VCH molecules in the form of a pulsed supersonic beam (30 Hz) were prepared by using a laser ablation beam source. 20 The VCH molecules were produced in the ablation source by reactions between laser ablated V species and CH 4 .…”

Communication: State-to-state photoionization and photoelectron study of vanadium methylidyne radical (VCH)

“…This observed D 0 change reveals the highest occupied 1δ orbital is nonbonding in nature for the V-CH bond; but has anti-bonding or destabilizing character for the VC-H bond of VCH(X 3 By parking the IR ω 1 at the R-branch band head of the VCH*( + spectra (bottom spectra), which are shown as the orange, purple, brown, green, and red spectra, respectively. The simulation [12][13][14][15] assumes a Gaussian instrumental profile (FWHM = 1.3 cm −1 ) for the PFI-PE detection and takes into account the bandwidth of ω 1 , the Boltzmann populations of J -rotational levels based on an estimated rotational temperature of 35 K for the VCH molecular beam, and the overlaps of the rotational transitions with the excitation profile of the ω 1 output. The N + -dependence of the photoionization cross sections follows the patterns observed in the present and previous single J -selected PFI-PE measurements.…”

“…We have recently succeeded in performing high-resolution pulsed field ionizationphotoelectron (PFI-PE) 9, 10 studies for diatomic MX + (X = C, O, and N) species based on two-color visibleultraviolet (VIS-UV) excitation scheme, which has allowed fully rotationally selected and resolved spectroscopic measurement for MX + cations. [11][12][13][14][15][16] These studies have not only provided reliable rovibrational constants, but also accurate ionization energies (IEs) of MXs. To our knowledge, a fully rotationally resolved PFI-PE measurement for triatomic transition metal-containing cations has not been reported previously.…”

“…19 The experimental apparatus and procedures used are similar to those reported previously. [12][13][14][15] Cold VCH molecules in the form of a pulsed supersonic beam (30 Hz) were prepared by using a laser ablation beam source. 20 The VCH molecules were produced in the ablation source by reactions between laser ablated V species and CH 4 .…”

Communication: State-to-state photoionization and photoelectron study of vanadium methylidyne radical (VCH)

“…4,5 In an effort to improve the precision of the energetic database for simple transition metal oxides and carbides, we have initiated a research program to perform high-resolution PIE and PFI-PE measurements of transition metal-containing species. 6 The IEs of many of the transition metal carbides and oxides are in the vacuum ultraviolet (VUV) range of 6.5-10.0 eV. When a stable intermediate neutral state for these species is known, they are ideal candidates for two-color visible-ultraviolet laser PIE and PFI-PE studies, 6 from which highly precise IE and spectroscopic values can be determined by rotationally selected and resolved photoelectron measurements.…”

Communication: A vibrational study of titanium dioxide cation using the vacuum ultraviolet laser pulsed field ionization-photoelectron method

“…8 In the case of the diatomic carbides, optical spectroscopy has been carried out for FeC, CoC, NiC, VC, and, more recently, TiC. [10][11][12][13][14] Pure rotational data have been recorded for FeC, CoC, and NiC as well. 15,16 These studies have demonstrated that the ground states of these molecules are 3 ∆, 2 Σ + , 1 Σ + , 2 ∆, and 3 Σ + , respectively.…”

Millimeter-wave spectroscopy of CrC (X3Σ−) and CrCCH (X̃ 6Σ+): Examining the chromium-carbon bond